Diaphragm pushbutton switch array for keyboards

ABSTRACT

A system employing a keyboard comprises a base mounting an array of key bodies each adapted to reciprocably move to cause actuation of electrical circuits. A diaphragm is employed as an electrical conductor moving into and out of engagement with underlying contacts upon actuation and deactuation of the key body. Bounding problems have been minimized while maintaining tactile feedback by locating a spring member between the key and its respective diaphragm providing increased motion differential and by providing elongate guiding surfaces which eliminate skew movement of the key. Several forms of keys and key mountings are shown embodying the elongated guideway including an elongated hub molded in the bezel plate and receiving a close fitting rod portion of the key, a separate tubular guide and close fitting plunger, and a key having tabs extending laterally therefrom, the tabs slidably received in grooves formed in the base. Another embodiment particularly useful where two or more circuits are to be actuated from the same key employs a second spring to maintain the diaphragm away from the underlying contacts until the key is depressed thereby precluding undesirable back circuits without the use of blocking diodes or the like.

United States Pat ent j Dapot et al. 1 Dec. 26, I972 [54] DIAPHRAGM PUSHBUTTON SWITCH [57] ABSTRACT I ARRAY FOR KEYBOARDS A system employing a keyboard comprises a base [72] lnventorse Martin H. Dapot, Pawtucket; Henry mounting an array of key bodies each. adapted to J. Boulanger, Cumberland, both of reciprocably move to cause actuation of electrical cir- 1 cuits. A diaphragm is employed as an electrical conductor moving into and out of engagement with un- Asslgnee: Texas Insnumems lncorlmnted derlying contacts upon actuation and deactuation of i Dallas the key body. Bounding problems have been [22] Filed: Oct. 27, 1971 minimized while maintaining tactile feedback by locatmg a spring member between the key and its respecpp 192,802 'tive diaphragm providing increased motion differential v and by providing elongate guiding surfaces which 521 U.S. cl; ..200/s R, 200/ A, 200/1598 eliminate'skew movewem of the Y- Several fPPmS of keys and key mountings are shown embodying the [51] Int. Cl. ..H0lh 5/30, l-lOlh 13/64 elongated g y including an elongated hub [58] held of r "200/5 159 molded in the bezel plate and receiving a close fitting 1 rod portion of the key, a separate tubular guide and 1 References Cited close fitting plunger, and a'key having tabs extending U T T S PATENTS laterally therefrom, the tabs Slidably received in i grooves formed in the base. Another embodiment par- 3,221,112 ll/i965 Gaynor ..200/5 R ticularly useful where two or more circuits are to be 2,409,483 /1946 Gandelm B X "actuated from the same key employs a second spring 5 7 7/1971 Comsmck 159 ito maintain the diaphragm away from the underlying 2,262,777 ll/l94l ROpBl' ..200/l59 B con c s until the y is depressed h y precluding undesirable back circuits without the use of blocking Primary Examiner-J. R. Scott diodes or the like Attorney-Harold Levine et al.

5 Claims, 9 Drawing Figures F Fa as r I) I I/ 4 I :4 20 I ldc l6? /2 /8L /8c l5)? /8L l8c 9/' PATENTEljuiczs |972 SHEET 3 BF 4 DIAPHRAGM PUSHBUTTON SWITCH ARRAY FOR KEYBOARDS This invention relates to keyboard devices and more particularly to keyboard devices of the contacting type.

In recent years there has been a wide proliferation of types of keyboard, each having certain advantages and disadvantages. .For instance some keyboards have a low profile which is advantageous for certain applications but have disadvantages such as high contact resistance and an ambiguous feel of contact actuation through the keys as well as being expensive due to the extensive gold plating required. Those employing non-contacting systems have advantages such as long life, no variation in contact resistance, no contact bounce; however, they have high standby current drain and are relatively complex due to the required associated circuitry. Keyboard devices employing diaphragms as the contact bridging conductor are, inter alia, inexpensive and reliable, provide excellent tactile feedback and are flexible in use since the diaphragm can be chosen having any of a wide range of operating forces.'Such keyboards however, suffer from the disadvantage of being subject to an undesirable phenomenon known as bounding. Bounding occurs when an operators finger, while actuating a key, bounces and allows the respective switch to open momentarily producing a switching transient that may cause incorrect data to be fed into the apparatus controlled by the keyboard. This problem is accentuated in keyboards which have comparatively little force and movement differential. Another limitation of prior art keyboards is that they have required additional circuitry means such as blocking diodes or some type of scanning device to prevent electrical back circuits when two or more circuits are actuated by the same key.

It is an object of the invention to provide an improved keyboard system in which electrical interconnections are effected responsive to mechanical actuation. his a further object of the present invention to provide an improved keyboard-device, one which utilizes the advantage of keyboards employing diaphragms, yet one which is essentially free of bounding. Another object of the invention is the provision of a reliable, inexpensive keyboard which is also conducive to mass production. Another object is the provision of a keyboard device in which all the keys have not only the same feel of actuation but also a pleasant feel of actuation. Yet another object is the provision of a keyboard system in which back circuits are precluded without using conventional blocking diodes or scanning apparatus. Yet another object is the provision of a keyboard which has low profile, is durable, long-lived and adapted for use with various apparatus including electronic calculators, computer systems and credit card verifiers and the like.

Various additional objects and advantages of the present invention will become readily apparent from the following detailed description and accompanying drawings.

Briefly, in accordance with the present invention a keyboard device is provided comprising an array of key bodies mounted contiguous to a circuit board. The key bodies are mounted for reciprocal motion and adapted to close electrical circuits upon sufficient depression or actuation of the key. Depression of the key causes an elastomeric electrical conductor in the form of a diaphragm to bridge underlying contacts. In order to avoid bounding, as mentioned above, a condition in which the operators finger bounces off the key bod y thereby generating undesirable electrical impulses, movement differential is provided by placing a spring or elastomeric member intermediate the key body and the diaphragm such that it transmits force from the key body to the diaphragm. Additionally, elongated guiding surface means is provided to preclude skew movement of the key. Several embodiments showing the guiding surface means are shown including an elongated plunger and guideway, and laterally extending tabs formed in the key body and extending into grooves in the base. In order to obviate the possibility of undesirable back circuits when two or more circuits are actuated by the same key without resorting to blocking diodes or scanning apparatus means, normally open switches, closable in a two-step operation in response to keyactuation, are provided. That is, upon actuation of the key body the diaphragm will engage the output contacts prior to engagement with the signal contact. In the unactuated position, positive structural means maintains the diaphragm separated from the contacts.

In the accompanying drawings, in which several of the various possible embodiments of the invention are illustratedz' FIG. 1 is a top plan view, with parts broken away for clarity of illustration, of an electronic calculator using a keyboard according to the present invention;

FIG. 2 is a cross sectional view taken on lines 2-2 of FIG. 1;

FIG. 3 shows a Force V Displacement curve of a first diaphragm useful in the present invention;

FIG. 4 shows a Force V Displacement curve of a second diaphragm useful in the present invention;

FIG. 5 is a cross sectional view taken on lines 5-5 of FIG. 1 showing an alternative switch actuation system;

FIG. 6 is a perspective view of the key bodyshown in FIG. 5;

FIG. 7 is a cross sectional partial view similar to FIG. 2 but showing another alternative switch actuation system;

FIG. 8 is a cross sectional view similar to FIG. 2 but showing another alternative switch actuationsystem as well as means to preclude back circuits; and

FIG. 9 is a top plan view of a portion of the keyboard, with certain parts removed showing the FIG. 8 means to preclude back circuits.

Similar reference characters indicate corresponding parts throughout the several views of the drawings.

' Dimensions of certain of the parts, as shown in the drawings, have been modified or exaggerated for the purpose of clarity of illustration.

Referring now to the drawings, a keyboard made in accordance with the invention is shown in FIG. 1 incorporated in a calculator 10, broken away to show the relationship of the several parts with one another. Calcula tor 10 includes circuit board 12 which has on the bottom side thereof (not shown) a conventional conductive lead layout. Mounted on the top surface of board 12 is a calculator circuit which may take the form of a single chip housed in a 28-pin dual in line package 14. Also mounted on board 12 are a plurality of sets of contact elements 16L, 16C and 16R. These may conveniently be formed of electrically conductive staples inserted into apertures formed in the board 12 with the ends soldered to the conductive lead layout on the reversed side thereof as indicated at 18L, 18C and 18R in FIG. 2. A diaphragm retainer plate 20 is provided with a plurality of cut out sections 22, each' aligned with a respective set of contact elements. A diaphragm 24 is received in each cut out section 22 and functions as an electrical conductor bridging contacts 16L, 16C and 16R as will be explained in greater detail below. Overlying the diaphragm retainer plate 20 is a bezel plate 26 mounting a plurality of keys 28 in registry with respective diaphragms. Key retainer plate 30 serves as a cover for the calculator unit. Optoelectronic display panel 32 provides the read out section of the calculator. Appropriate symbols are placed in conventional manner on keys 28 as shown in FIG. 1. It should be realized that the keyboard can be used as well with 7 systems other than a calculator, such as computer input, credit card verifiers and the like.

As seen in FIGS. 1 and 2, bezel plate 26 is formed with recessed areas 34 and upstanding hubs 36. Hubs 36 formed with bores 38 are centered over respective diaphragms, the bores slidably receive rod portions 40 formed integrally with key bodies 28. Recessed areas 34 allow room for keys 28 to reciprocally slide up and down. Each rod portion 40 is elongated by providing an annular groove 42 in the key body which receives hub 36 when the key is depressed. Flange 44 is provided on the keys to prevent dislodgment from the recessed area 34. Each button 28is provided with spring seat 46 which receives one end of spring 48 while the other end contacts a central portion of diaphragm 24.

Depression of button 28 will cause compression of spring 48 and will transfer a force to diaphragm 24 which increases with key travel. Eventually sufficient force willbe applied to the diaphragm to cause it to change configuration from the convex (looking down as in FIG. 1) to a generally flat configuration thus bridging the respective set of contacts 16L, 16C and 16R. Each contact 16C is connected to a signal source and contacts 16L and 16R are connected to the calculator circuitry. Actuation of the key therefore results in transmission of electrical pulses through contacts 16L and 16R.

A problem experienced in prior art devices, especially low profile keyboards having little key actuation travel, is thatin using the keyboard an operator sometimes does not strike the key squarely and his finger bounces on the key. For instance, the fingernail might strike the key first depressing it and as the angle of the finger changes during actuation, the key might be released from the nail only to be depressed again by the flesh portion of the finger. While one would not observe this phenomenon with the naked eye, it nevertheless can occur causing undesirable electrical impulses to be transmitted that is, two impulses when only one was intended.

The present invention avoids this problem in several ways. Firstly, substantially increased actuation travel is provided by using a form of a spring to transfer force from the key to the diaphragm providing both pretravel and overtravel.

Additionally, means are provided to prevent cocking or skew movement of the key. As seen in FIG. 2, rod

portion and bore 38 are very close fitting with just enough clearance to allow rod portion 40 to slide in the bore. Further, the effective sliding portion of rod 40 is elongated giving increased guiding surface.

Generally, one of two different types of diaphragm is employed depending on whether or not it is desirable to provide tactile feedback. Some users prefer to feel actuation of the switch upon depression of the key. In order to provide this, a diaphragm having a force displacement curve as shown in FIG. 3 is employed..Curve 50 has a negative sloped portion 54 of decreasing force with increasing displacement located between two portions 52, 56 of increasing force with increasing displacement. That is, as the key is depressed, the finger I senses the increasing force required during portion 52; however, portion 54 gives a markedly different sensation due to the decreasing force required'for that displacement. This portion of the displacement is desirable for contact actuation so that the operator feels actuation of the switch.

Other users prefer to minimize tactile feedback. This can be accomplished as shown in the force displacement curve of FIG. 4 by employing a diaphragm having a relatively flat portion 64 between portions 62, 66 of increasing force with increasing displacement. While it is desirable to have a portion of the curve having increased displacement per unit of force to give a rapid contact closure and to minimize criticality of contact location this curve does avoid the audible click associated with the diaphragm of FIG. 3. Either type of diaphragm may be used in this FIGS. 1, 2 embodiment. Upon depression of a key body 28 by an operator, a substantial amount of key movement is required before sufficient force is applied to diaphragm 24 to cause it to actuate or flatten out and bridge the contacts. The

amount of this movement can be chosen by using a spring 48 having a particular spring-rate and length in conjunction with a particular diaphragm. lt-has been found that diaphragms having a rating of one and onehalf to eight ounces are particularly well suited for keyboards. A rating of a certain number of ounces refers to that force required to actuate or flatten the diaphragm. With the range of diaphragm rating a spring rate of up to five pounds per inch has been found to be most useful. As .the spring rate for a given spring is decreased, the problem of bounding is also decreased. On the other hand, the higher the spring rate the more accurate the determination of the position of the keyupon actuation. An example of a device made 'in accordance with the FIGS. 1, 2 embodiment employed a diaphragm of the FIG. 3 type, one half inch in diameter having a rating of three ounces. Spring 48 was chosen having a spring rate of4 pounds per inch. One and onehalf ounces were required to initiate key movement and three ounces were required for actuation. The total displacement of the key was 0.075 inches with 0.025 0.050 inches pretravel, approximately 0.025 inches between actuation and the point where the diaphragm returned to its original configuration (the release force chosen to be from 40 to 50 percent of the actuation force) and 0.050 0.025 inches of overtravel. This resulted in a key system in which the operator was able to clearly discern the moment of switch actuation (actual, not simulated, tactile feedback) yet due to the movement differential, there was no evidence of any bounding. That -is, even though the finger of the operator may have bounded off the keys, this was not transferred to the Switch.

It was also found that clearance between the rod portion 40 and bore 38 should be between 0.002 and 0.006 inches, 0.004 being preferred, to eliminate the possibility of skew movement.

Another embodiment is depicted in FIGS. 5 and 6. As seen in FIG. 6, key 70 is provided with a plurality of cars 72 which are received in grooves 74 formed in bezel plate 76. The keys are locked in place by plate 30. Spring 48 is'received in seat-78 as in the FIG. 2 embodiment. As in the FIG. 2 embodiment, the clearance between sidewalls 80 of key 70 and the sidewalls 82 of recessed area 84 is only enough to permit sliding movement of key 70 in recessed area 84. Bars 72 provide additional guiding surfaces and preclude skew movement.

I Another embodiment is illustrated in FIG. 7 which employs the same circuit board 12, diaphragm retainer plate 20, diaphragms 24, and sets of contacts 16L, 16C and 16R as in the previous embodiments. In this embodiment, however, separate elongated hubs 90 are provided for each key 92. Hub 90 is provided with an annular flange 94 locked between bezel plate 96 and hub retainer plate 98. Key portions 100 are provided to prevent rotation of hub 90. Hub 90 is provided with bore 102 and slots 104, the junction 106 therebetween serving as a stop limiting outward movement of plunger 108 as well as preventing rotational movement of plunger 108. Plunger 108 is formed of diameter portion 110 and key portions 112 closely fitting within respective bore 102 and keyways 104. Seat 114 formed within plunger 108 receives one end of spring 116. Key 92 is attached to plunger 108 in a conventional manner as by use of tang 118. In this instance when an extremely low profile is not required, it is preferred to maintain the length to diameter ratio of that portion of the plunger which is in sliding contact with the bore of hub 90 to approximately 2% to l or higher. In this embodiment clearance between diameter portion 110 and bore 102 is between 0.003 and 0.0l 1 inches, 0.007 being preferred to eliminate the possibility of skew'movement. Apertures 120 are provided in plate 96 to permit spring 116 to pass therethrough.

FIGS. 8 and 9 show another embodiment of the invention in which means are provided to prevent occurrence of back circuits where more than one circuit is controlled by a diaphragm. FIG. 8 is similar'to FIG. 2 and includes the same circuit board 12, a similar diaphragm retainer plate diaphragm 24 and contacts 16L, 16C and 16R. Also the same are bezel plate 26, key bodies 28 and key retaining plate 30. Located intermediate circuit board 12 and diaphragm 24 is a wave spring member 130 which raises the diaphragm, when in the at rest position, off of contacts 16L, 16C and 16R. Spring 130 is provided with ear portions 132 received in notches 134 in diaphragm retainer plate 20' to maintain it in its proper position Spring 130 is preferably elliptical in shape having a cut out section 136 to straddle contact 16C. Spring 130 can be formed of any good spring material such as beryllium copper or the like, or it could be formed of elastomeric material.

Spring 130 is chosen so that it will exert sufficient force on diaphragm 24 to maintain it separated from contacts 1.6L, 16C, 16R when the key body is in its at rest nonactuated position and also to prevent diaphragm 24 from engaging the contacts upon a predetermined amount of vibration from handling of the board. When button 28 is depressed, however, force is'exerted through spring member 140 overcoming the opposing bias of spring causing diaphragm 24 as a first step to bridge outer contacts 16L, 16R. Continued depression of the key results in transferring sufficient force to causeactuation or flattening of the diaphragm thereby bridging all three contacts and permitting an electrical impulse to pass from the signal contact 16C through the diaphragm to the. two output contacts 16L and 16R.

Another feature shown in FIG. 8, in place of a coil spring is a rod of elastomeric material. Use of this type of spring member decreases the total actuating displacement of the key 28 but increases the accuracy of the position of the key at actuation and increases tactile feedback.

Thus it will be seen that the instant invention avoids the disadvantages attendant with prior art devices mentioned supra, essentially eliminating bounding by providing movement differential along with elongated guiding surfaces for key bodies. Further, a reliable yet inexpensive solution has been provided for precluding the occurrence of back circuits in multipole type switches.

As many changes could be made in the above constructions without departure from the scope of the invention, it is intended that all matter contained in the above description or shown in the accompanying drawings, shall be interpreted as illustrative and not in a limiting sense, and it is also intended that the appended claims shall cover all such equivalent variations as come within the true spirit and scope of the invention.

It is to be understood that the invention is not limited in its application to the details of construction and arrangement of parts illustrated in the accompanying drawings, since the invention is capable of other embodiments and of being practiced or carried out invarious ways. Also, it is to be understood that the phraseology or terminology employed herein is for the purpose of description and not of limitation.

What is claimed is:

1. Keyboard apparatus comprising:

a circuit board;

a plurality of sets of contacts mounted on the circuit board;

a diaphragm retainer plate placed on the circuit board and having a plurality of diaphragm receiving apertures therein, the apertures aligned with respective sets of contacts;

an electrically conductive diaphragm located in each diaphragm receiving aperture;

a bezel plate placed on the diaphragm retainer plate,

the bezel plate having a plurality of spring receiving apertures aligned with the central portion of respective diaphragms;

an elongated generally cylindrical plunger guide for and aligned with each diaphragm and contact set, each guide having an axially extending bore and having an outwardly radially extending annular flange on a distal end thereof;

a locking plate having a plurality of plunger guide receiving apertures therein, the guides telescopically received in respective plunger guide receiving apertures with the respective flanges locked between the bezel plate and the locking plate;

an elongated generally cylindrical plunger'having two ends slidably received in each guide bore, a spring seat formed in one end of the plunger;

a spring member received in the spring seat of the plunger and extending therefrom through respective spring receiving apertures in the bezel plate r and contacting respective diaphragms; and

a key head mounted on the other end of respective plungers.

2. Apparatus according to claim 1 in which the ratio of the length of the sliding surfaces of the guide and plunger to the diameter of the plunger is approximately 2% or greater to l.

3. Apparatus according to claim 2 in which the clearance between the guide and the plunger is between approximately 0.003 and 0.01 1 inches.

4. Apparatus according to claim 3 in which the clearance is nominally 0.007 inches.

5. Apparatus according to claim 1 in which the guide bore is provided with at least one axially extending keyway extending from the end having the radial flange, and the plunger has at least one axially extending key which closely fits in the keyway, the junction between the keyway and the key servingto limit outward movement and preclude rotation of the plunger. 

1. Keyboard apparatus comprising: a circuit board; a plurality of sets of contacts mounted on the circuit board; a diaphragm retainer plate placed on the circuit board and having a plurality of diaphragm receiving apertures therein, the apertures aligned with respective sets of contacts; an electrically conductive diaphragm located in each diaphragm receiving aperture; a bezel plate placed on the diaphragm retainer plate, the bezel plate having a plurality of spring receiving apertures aligned with the central portion of respective diaphragms; an elongated generally cylindrical plunger guide for and aligned with each diaphragm and contact set, each guide having an axially extending bore and having an outwardly radially extending annular flange on a distal end thereof; a locking plate having a plurality of plunger guide receiving apertures therein, the guides telescopically received in respective plunger guide receiving apertures with the respective flanges locked between the bezel plate and the locking plate; an elongated generally cylindrical plunger having two ends slidably received in each guide bore, a spring seat formed in one end of the plunger; a spring member received in the spring seat of the plunger and extending therefrom through respective spring receiving apertures in the bezel plate and contacting respective diaphragms; and a key head mounted on the other end of respective plungers.
 2. Apparatus according to claim 1 in which the ratio of the length of the sliding surfaces of the guide and plunger to the diameter of the plunger is approximately 2 1/2 or greater to
 3. Apparatus according to claim 2 in which the clearance between the guide and the plunger is between approximately 0.003 and 0.011 inches.
 4. Apparatus according to claim 3 in which the clearance is nominally 0.007 inches.
 5. Apparatus according to claim 1 in which the guide bore is provided with at least one axially extending keyway extending from the end having the radial flange, and the plunger has at least one axially extending key which closely fits in the keyway, the junction between the keyway and the key serving to limit outward movement and preclude rotation of the plunger. 